/**
 * Copyright (c) 2017 Eclipse RDF4J contributors.
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Distribution License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/org/documents/edl-v10.php.
 */
package org.eclipse.rdf4j.sail.lucene;

import static org.eclipse.rdf4j.sail.lucene.LuceneSailSchema.MATCHES;
import static org.eclipse.rdf4j.sail.lucene.LuceneSailSchema.PROPERTY;
import static org.eclipse.rdf4j.sail.lucene.LuceneSailSchema.QUERY;
import static org.eclipse.rdf4j.sail.lucene.LuceneSailSchema.SCORE;
import static org.eclipse.rdf4j.sail.lucene.LuceneSailSchema.SNIPPET;
import static org.junit.Assert.assertEquals;
import static org.junit.Assert.assertFalse;
import static org.junit.Assert.assertNotNull;
import static org.junit.Assert.assertTrue;
import static org.junit.Assert.fail;

import java.io.IOException;
import java.io.StringReader;
import java.util.ArrayList;
import java.util.Collection;
import java.util.HashMap;
import java.util.HashSet;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import java.util.Set;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.CountDownLatch;
import java.util.concurrent.TimeUnit;

import org.eclipse.rdf4j.model.IRI;
import org.eclipse.rdf4j.model.Literal;
import org.eclipse.rdf4j.model.Resource;
import org.eclipse.rdf4j.model.Statement;
import org.eclipse.rdf4j.model.Value;
import org.eclipse.rdf4j.model.ValueFactory;
import org.eclipse.rdf4j.model.impl.SimpleValueFactory;
import org.eclipse.rdf4j.model.vocabulary.FOAF;
import org.eclipse.rdf4j.model.vocabulary.RDFS;
import org.eclipse.rdf4j.query.BindingSet;
import org.eclipse.rdf4j.query.GraphQuery;
import org.eclipse.rdf4j.query.GraphQueryResult;
import org.eclipse.rdf4j.query.MalformedQueryException;
import org.eclipse.rdf4j.query.QueryEvaluationException;
import org.eclipse.rdf4j.query.QueryLanguage;
import org.eclipse.rdf4j.query.TupleQuery;
import org.eclipse.rdf4j.query.TupleQueryResult;
import org.eclipse.rdf4j.repository.Repository;
import org.eclipse.rdf4j.repository.RepositoryConnection;
import org.eclipse.rdf4j.repository.RepositoryException;
import org.eclipse.rdf4j.repository.sail.SailRepository;
import org.eclipse.rdf4j.rio.RDFFormat;
import org.eclipse.rdf4j.sail.memory.MemoryStore;
import org.junit.After;
import org.junit.Before;
import org.junit.Rule;
import org.junit.Test;
import org.junit.rules.Timeout;
import org.slf4j.Logger;
import org.slf4j.LoggerFactory;

public abstract class AbstractGenericLuceneTest {

	@Rule
	public Timeout timeout = new Timeout(10, TimeUnit.MINUTES);

	protected static final ValueFactory vf = SimpleValueFactory.getInstance();

	public static final String QUERY_STRING;

	public static final IRI SUBJECT_1 = vf.createIRI("urn:subject1");

	public static final IRI SUBJECT_2 = vf.createIRI("urn:subject2");

	public static final IRI SUBJECT_3 = vf.createIRI("urn:subject3");

	public static final IRI SUBJECT_4 = vf.createIRI("urn:subject4");

	public static final IRI SUBJECT_5 = vf.createIRI("urn:subject5");

	public static final IRI CONTEXT_1 = vf.createIRI("urn:context1");

	public static final IRI CONTEXT_2 = vf.createIRI("urn:context2");

	public static final IRI CONTEXT_3 = vf.createIRI("urn:context3");

	public static final IRI PREDICATE_1 = vf.createIRI("urn:predicate1");

	public static final IRI PREDICATE_2 = vf.createIRI("urn:predicate2");

	public static final IRI PREDICATE_3 = vf.createIRI("urn:predicate3");

	static final Logger LOG = LoggerFactory.getLogger(AbstractGenericLuceneTest.class);

	protected LuceneSail sail;

	protected Repository repository;

	protected RepositoryConnection connection;

	static {
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT Subject, Score ");
		buffer.append("FROM {Subject} <" + MATCHES + "> {} ");
		buffer.append(" <" + QUERY + "> {Query}; ");
		buffer.append(" <" + SCORE + "> {Score} ");
		QUERY_STRING = buffer.toString();
	}

	protected abstract void configure(LuceneSail sail) throws IOException;

	@Before
	public void setUp() throws Exception {
		// set logging, uncomment this to get better logging for debugging
		// org.apache.log4j.BasicConfigurator.configure();
		// TODO: disable logging for org.eclipse.rdf4j.query.parser.serql.SeRQLParser,
		// which is not possible
		// to configure using just the Logger

		// setup a LuceneSail
		MemoryStore memoryStore = new MemoryStore();
		// enable lock tracking
		org.eclipse.rdf4j.common.concurrent.locks.Properties.setLockTrackingEnabled(true);
		sail = new LuceneSail();
		configure(sail);
		sail.setBaseSail(memoryStore);

		// create a Repository wrapping the LuceneSail
		repository = new SailRepository(sail);
		repository.initialize();

		// add some statements to it
		connection = repository.getConnection();
		connection.begin();
		connection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("one"));
		connection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("five"));
		connection.add(SUBJECT_1, PREDICATE_2, vf.createLiteral("two"));
		connection.add(SUBJECT_2, PREDICATE_1, vf.createLiteral("one"));
		connection.add(SUBJECT_2, PREDICATE_2, vf.createLiteral("three"));
		connection.add(SUBJECT_3, PREDICATE_1, vf.createLiteral("four"));
		connection.add(SUBJECT_3, PREDICATE_2, vf.createLiteral("one"));
		connection.add(SUBJECT_3, PREDICATE_3, SUBJECT_1);
		connection.add(SUBJECT_3, PREDICATE_3, SUBJECT_2);
		connection.commit();
	}

	@After
	public void tearDown() throws IOException, RepositoryException {
		try {
			if (connection != null) {
				connection.close();
			}
		} finally {
			if (repository != null) {
				repository.shutDown();
			}
		}
	}

	@Test
	public void testComplexQueryTwo() throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		// prepare the query
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT Resource, Matching, Score ");
		buffer.append("FROM {Resource} <" + PREDICATE_3 + "> {Matching} ");
		buffer.append(" <" + MATCHES + "> {} ");
		buffer.append(" <" + QUERY + "> {\"two\"}; ");
		buffer.append(" <" + SCORE + "> {Score} ");
		String q = buffer.toString();

		// fire a query for all subjects with a given term
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);

		// check the results
		try (TupleQueryResult result = query.evaluate()) {
			// check the results
			assertTrue(result.hasNext());
			BindingSet bindings = result.next();
			assertEquals(SUBJECT_3, (IRI) bindings.getValue("Resource"));
			assertEquals(SUBJECT_1, (IRI) bindings.getValue("Matching"));
			assertNotNull(bindings.getValue("Score"));

			assertFalse(result.hasNext());
		}
	}

	private void evaluate(String[] queries, ArrayList<List<Map<String, String>>> expectedResults)
			throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		for (int queryID = 0; queryID < queries.length; queryID++) {
			String serql = queries[queryID];
			List<Map<String, String>> expectedResultSet = expectedResults.get(queryID);

			// fire the query
			TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, serql);
			int actualResults;
			Set<Integer> matched;
			// check the results
			try (TupleQueryResult tqr = query.evaluate()) {
				// check the results
				actualResults = 0;
				matched = new HashSet<>();
				while (tqr.hasNext()) {
					BindingSet bs = tqr.next();
					actualResults++;

					boolean matches;
					for (int resultSetID = 0; resultSetID < expectedResultSet.size(); resultSetID++) {
						// ignore results that matched before
						if (matched.contains(resultSetID)) {
							continue;
						}

						// assume it matches
						matches = true;

						// get the result we compare with now
						Map<String, String> expectedResult = new HashMap<>(expectedResultSet.get(resultSetID));

						// get all var names
						Collection<String> vars = new ArrayList<>(expectedResult.keySet());

						// check if all actual results are expected
						for (String var : vars) {
							String expectedVal = expectedResult.get(var);
							Value actualVal = bs.getValue(var);

							if (expectedVal == null) {
								// don't care about the actual value, as long as there is
								// one
								if (actualVal == null) {
									matches = false;
									break;
								}
							} else {
								// compare the values
								if ((actualVal == null) || (expectedVal.compareTo(actualVal.stringValue()) != 0)) {
									matches = false;
									break;
								}
							}

							// remove the matched result so that we do not match it twice
							expectedResult.remove(var);
						}

						// check if expected results were existing
						if (!expectedResult.isEmpty()) {
							matches = false;
						}

						if (matches) {
							matched.add(resultSetID);
							break;
						}
					}
				}
			}

			// the number of matched expected results must be equal to the number
			// of actual results
			assertEquals("How many expected results were retrieved for query #" + queryID + "?",
					expectedResultSet.size(), matched.size());
			assertEquals("How many actual results were retrieved for query #" + queryID + "?", expectedResultSet.size(),
					actualResults);
		}
	}

	@Test
	public void testPredicateLuceneQueries()
			throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		// prepare the query
		String[] queries = new String[] {
				"SELECT \n" + "  Resource, Score, Snippet \n" + "FROM \n" + "  {Resource} <" + MATCHES + "> {} \n"
						+ "    <" + QUERY + "> {\"one\"}; \n" + "    <" + SCORE + "> {Score}; \n" + "    <" + SNIPPET
						+ "> {Snippet}",
				"SELECT \n" + "  Resource, Score, Snippet \n" + "FROM \n" + "  {Resource} <" + MATCHES + "> {} \n"
						+ "    <" + QUERY + "> {\"five\"}; \n" + "    <" + SCORE + "> {Score}; \n" + "    <" + SNIPPET
						+ "> {Snippet}" };

		ArrayList<List<Map<String, String>>> allResults = new ArrayList<>();

		// create a new result set
		ArrayList<Map<String, String>> resultSet = new ArrayList<>();

		// one possible result
		Map<String, String> result1 = new HashMap<>();
		result1.put("Resource", SUBJECT_1.stringValue());
		result1.put("Score", null); // null means: ignore the value
		result1.put("Snippet", "<B>one</B>");
		resultSet.add(result1);

		// another possible result
		Map<String, String> result2 = new HashMap<>();
		result2.put("Resource", SUBJECT_2.stringValue());
		result2.put("Score", null); // null means: ignore the value
		result2.put("Snippet", "<B>one</B>");
		resultSet.add(result2);

		// another possible result
		Map<String, String> result3 = new HashMap<>();
		result3.put("Resource", SUBJECT_3.stringValue());
		result3.put("Score", null); // null means: ignore the value
		result3.put("Snippet", "<B>one</B>");
		resultSet.add(result3);

		// add the results of for the first query
		allResults.add(resultSet);

		// recreate a result set
		resultSet = new ArrayList<>();

		// one possible result
		Map<String, String> result = new HashMap<>();
		result.put("Resource", SUBJECT_1.stringValue());
		result.put("Score", null); // null means: ignore the value
		result.put("Snippet", "<B>five</B>");
		resultSet.add(result);

		// add the results of for the first query
		allResults.add(resultSet);

		evaluate(queries, allResults);
	}

	@Test
	public void testSnippetQueries() throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		// prepare the query
		// search for the term "one", but only in predicate 1
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT \n");
		buffer.append("  Resource, Score \n");
		buffer.append("FROM \n");
		buffer.append("  {Resource} <" + MATCHES + "> {} ");
		buffer.append("    <" + QUERY + "> {\"one\"}; ");
		buffer.append("    <" + PROPERTY + "> {<" + PREDICATE_1 + ">}; ");
		buffer.append("    <" + SCORE + "> {Score} ");
		String q = buffer.toString();

		// fire the query
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);
		try (TupleQueryResult result = query.evaluate()) {

			// check the results
			BindingSet bindings = null;

			// the first result is subject 1 and has a score
			int results = 0;
			Set<IRI> expectedSubject = new HashSet<>();
			expectedSubject.add(SUBJECT_1);
			expectedSubject.add(SUBJECT_2);
			while (result.hasNext()) {
				results++;
				bindings = result.next();

				// the resource should be among the set of expected subjects, if so,
				// remove it from the set
				assertTrue(expectedSubject.remove(bindings.getValue("Resource")));

				// there should be a score
				assertNotNull(bindings.getValue("Score"));
			}

			// there should have been only 2 results
			assertEquals(2, results);

			result.close();
		}
	}

	/**
	 * Test if the snippets do not accidentially come from the "text" field while we actually expect them to come from
	 * the predicate field.
	 */
	@Test
	public void testSnippetLimitedToPredicate()
			throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		try (RepositoryConnection localConnection = repository.getConnection()) {
			localConnection.begin();
			// we use the string 'charly' as test-case. the snippets should contain
			// "come" and "unicorn"
			// and 'poor' should not be returned if we limit on predicate1
			// and watch http://www.youtube.com/watch?v=Q5im0Ssyyus like 25mio others
			localConnection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("come charly lets go to candy mountain"));
			localConnection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("but the unicorn charly said to goaway"));
			localConnection.add(SUBJECT_1, PREDICATE_2, vf.createLiteral("there was poor charly without a kidney"));
			localConnection.commit();
		}

		// prepare the query
		// search for the term "charly", but only in predicate 1
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT \n");
		buffer.append("  Resource, Score, Snippet \n");
		buffer.append("FROM \n");
		buffer.append("  {Resource} <" + MATCHES + "> {} ");
		buffer.append("    <" + QUERY + "> {\"charly\"}; ");
		buffer.append("    <" + PROPERTY + "> {<" + PREDICATE_1 + ">}; ");
		buffer.append("    <" + SNIPPET + "> {Snippet}; ");
		buffer.append("    <" + SCORE + "> {Score} ");
		String q = buffer.toString();

		// fire the query
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);
		try (TupleQueryResult result = query.evaluate()) {

			// check the results
			BindingSet bindings = null;

			// the first result is subject 1 and has a score
			int results = 0;
			Set<String> expectedSnippetPart = new HashSet<>();
			expectedSnippetPart.add("come");
			expectedSnippetPart.add("unicorn");
			String notexpected = "poor";
			while (result.hasNext()) {
				results++;
				bindings = result.next();

				// the resource should be among the set of expected subjects, if so,
				// remove it from the set
				String snippet = ((Literal) bindings.getValue("Snippet")).stringValue();
				boolean foundexpected = false;
				for (Iterator<String> i = expectedSnippetPart.iterator(); i.hasNext();) {
					String expected = i.next();
					if (snippet.contains(expected)) {
						foundexpected = true;
						i.remove();
					}
				}
				if (snippet.contains(notexpected)) {
					fail("snippet '" + snippet + "' contained value '" + notexpected + "' from predicate "
							+ PREDICATE_2);
				}
				if (!foundexpected) {
					fail("did not find any of the expected strings " + expectedSnippetPart + " in the snippet "
							+ snippet);
				}

				// there should be a score
				assertNotNull(bindings.getValue("Score"));
			}

			// we found all
			assertTrue("These were expected but not found: " + expectedSnippetPart, expectedSnippetPart.isEmpty());

			assertEquals("there should have been 2 results", 2, results);
		}
	}

	@Test
	public void testCharlyTerm() throws Exception {

		try (RepositoryConnection localConnection = repository.getConnection()) {
			localConnection.begin();
			// we use the string 'charly' as test-case. the snippets should contain
			// "come" and "unicorn"
			// and 'poor' should not be returned if we limit on predicate1
			// and watch http://www.youtube.com/watch?v=Q5im0Ssyyus like 25mio others
			localConnection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("come charly lets go to candy mountain"));
			localConnection.add(SUBJECT_1, PREDICATE_1, vf.createLiteral("but the unicorn charly said to goaway"));
			localConnection.add(SUBJECT_1, PREDICATE_2, vf.createLiteral("there was poor charly without a kidney"));
			localConnection.commit();
		}
		// search for the term "charly" in all predicates
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT \n");
		buffer.append("  Resource, Score, Snippet \n");
		buffer.append("FROM \n");
		buffer.append("  {Resource} <" + MATCHES + "> {} ");
		buffer.append("    <" + QUERY + "> {\"charly\"}; ");
		buffer.append("    <" + SNIPPET + "> {Snippet}; ");
		buffer.append("    <" + SCORE + "> {Score} ");
		String q = buffer.toString();

		// fire the query
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);
		try (TupleQueryResult result = query.evaluate()) {

			// check the results
			BindingSet bindings = null;

			// the first result is subject 1 and has a score
			int results = 0;
			Set<String> expectedSnippetPart = new HashSet<>();
			expectedSnippetPart.add("come");
			expectedSnippetPart.add("unicorn");
			expectedSnippetPart.add("poor");

			while (result.hasNext()) {
				results++;
				bindings = result.next();

				// the resource should be among the set of expected subjects, if so,
				// remove it from the set
				String snippet = ((Literal) bindings.getValue("Snippet")).stringValue();
				boolean foundexpected = false;
				for (Iterator<String> i = expectedSnippetPart.iterator(); i.hasNext();) {
					String expected = i.next();
					if (snippet.contains(expected)) {
						foundexpected = true;
						i.remove();
					}
				}
				if (!foundexpected) {
					fail("did not find any of the expected strings " + expectedSnippetPart + " in the snippet "
							+ snippet);
				}

				// there should be a score
				assertNotNull(bindings.getValue("Score"));
			}

			// we found all
			assertTrue("These were expected but not found: " + expectedSnippetPart, expectedSnippetPart.isEmpty());

			assertEquals("there should have been 3 results", 3, results);
		}
	}

	@Test
	public void testGraphQuery() throws QueryEvaluationException, MalformedQueryException, RepositoryException {
		IRI score = vf.createIRI(LuceneSailSchema.NAMESPACE + "score");
		StringBuilder query = new StringBuilder();

		// here we would expect two links from SUBJECT3 to SUBJECT1 and SUBJECT2
		// and one link from SUBJECT3 to its score
		query.append("CONSTRUCT DISTINCT \n");
		query.append("    {r} <" + PREDICATE_3 + "> {r2} , \n");
		query.append("    {r} <" + score + "> {s} \n");
		query.append("FROM \n");
		query.append("    {r} lucenesail:matches {match} lucenesail:query {\"four\"}; \n");
		query.append("                                   lucenesail:score {s}, \n");
		query.append("    {r} <" + PREDICATE_3.toString() + "> {r2} \n");
		query.append("USING NAMESPACE\n");
		query.append("    lucenesail = <" + LuceneSailSchema.NAMESPACE + "> \n");

		int r = 0;
		int n = 0;
		GraphQuery gq = connection.prepareGraphQuery(QueryLanguage.SERQL, query.toString());
		try (GraphQueryResult result = gq.evaluate()) {
			while (result.hasNext()) {
				Statement statement = result.next();
				n++;

				if (statement.getSubject().equals(SUBJECT_3) && statement.getPredicate().equals(PREDICATE_3)
						&& statement.getObject().equals(SUBJECT_1)) {
					r |= 1;
					continue;
				}
				if (statement.getSubject().equals(SUBJECT_3) && statement.getPredicate().equals(PREDICATE_3)
						&& statement.getObject().equals(SUBJECT_2)) {
					r |= 2;
					continue;
				}
				if (statement.getSubject().equals(SUBJECT_3) && statement.getPredicate().equals(score)) {
					r |= 4;
					continue;
				}
			}

			assertEquals(3, n);
			assertEquals(7, r);

		}

	}

	@Test
	public void testQueryWithSpecifiedSubject()
			throws RepositoryException, MalformedQueryException, QueryEvaluationException {
		// fire a query with the subject pre-specified
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, QUERY_STRING);
		query.setBinding("Subject", SUBJECT_1);
		query.setBinding("Query", vf.createLiteral("one"));
		// check that this subject and only this subject is returned
		try (TupleQueryResult result = query.evaluate()) {
			// check that this subject and only this subject is returned
			assertTrue(result.hasNext());
			BindingSet bindings = result.next();
			assertEquals(SUBJECT_1, (IRI) bindings.getValue("Subject"));
			assertNotNull(bindings.getValue("Score"));
			assertFalse(result.hasNext());
		}
	}

	@Test
	public void testUnionQuery() throws RepositoryException, MalformedQueryException, QueryEvaluationException {
		String queryStr = "";
		queryStr += "PREFIX search: <http://www.openrdf.org/contrib/lucenesail#> ";
		queryStr += "PREFIX rdfs: <http://www.w3.org/2000/01/rdf-schema#> ";
		queryStr += "SELECT DISTINCT ?result { ";
		queryStr += "{ ?result search:matches ?match1 . ";
		queryStr += "  ?match1 search:query 'one' ; ";
		queryStr += "          search:property <urn:predicate1> . }";
		queryStr += " UNION ";
		queryStr += "{ ?result search:matches ?match2 . ";
		queryStr += "  ?match2 search:query 'one' ; ";
		queryStr += "          search:property <urn:predicate2> . } ";
		queryStr += "} ";

		// fire a query with the subject pre-specified
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SPARQL, queryStr);
		try (TupleQueryResult result = query.evaluate()) {
			while (result.hasNext()) {
				System.out.println(result.next());
			}
		}
	}

	/**
	 * Tests adding data to two contexts (graphs).
	 * 
	 * @throws Exception
	 */
	@Test
	public void testContextHandling() throws Exception {
		connection.add(SUBJECT_4, PREDICATE_1, vf.createLiteral("sfourponecone"), CONTEXT_1);
		connection.add(SUBJECT_4, PREDICATE_2, vf.createLiteral("sfourptwocone"), CONTEXT_1);
		connection.add(SUBJECT_5, PREDICATE_1, vf.createLiteral("sfiveponecone"), CONTEXT_1);
		connection.add(SUBJECT_5, PREDICATE_1, vf.createLiteral("sfiveponectwo"), CONTEXT_2);
		connection.add(SUBJECT_5, PREDICATE_2, vf.createLiteral("sfiveptwoctwo"), CONTEXT_2);
		connection.commit();
		// connection.close();
		// connection = repository.getConnection();
		// connection.setAutoCommit(false);
		// test querying
		assertQueryResult("sfourponecone", PREDICATE_1, SUBJECT_4);
		assertQueryResult("sfourptwocone", PREDICATE_2, SUBJECT_4);
		assertQueryResult("sfiveponecone", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveponectwo", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveptwoctwo", PREDICATE_2, SUBJECT_5);
		// blind test to see if this method works:
		assertNoQueryResult("johannesgrenzfurthner");
		// remove a context
		connection.clear(CONTEXT_1);
		connection.commit();
		assertNoQueryResult("sfourponecone");
		assertNoQueryResult("sfourptwocone");
		assertNoQueryResult("sfiveponecone");
		assertQueryResult("sfiveponectwo", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveptwoctwo", PREDICATE_2, SUBJECT_5);
	}

	/**
	 * we experienced problems with the NULL context and lucenesail in August 2008
	 *
	 * @throws Exception
	 */
	@Test
	public void testNullContextHandling() throws Exception {
		connection.add(SUBJECT_4, PREDICATE_1, vf.createLiteral("sfourponecone"));
		connection.add(SUBJECT_4, PREDICATE_2, vf.createLiteral("sfourptwocone"));
		connection.add(SUBJECT_5, PREDICATE_1, vf.createLiteral("sfiveponecone"));
		connection.add(SUBJECT_5, PREDICATE_1, vf.createLiteral("sfiveponectwo"), CONTEXT_2);
		connection.add(SUBJECT_5, PREDICATE_2, vf.createLiteral("sfiveptwoctwo"), CONTEXT_2);
		connection.commit();
		// connection.close();
		// connection = repository.getConnection();
		// connection.setAutoCommit(false);
		// test querying
		assertQueryResult("sfourponecone", PREDICATE_1, SUBJECT_4);
		assertQueryResult("sfourptwocone", PREDICATE_2, SUBJECT_4);
		assertQueryResult("sfiveponecone", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveponectwo", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveptwoctwo", PREDICATE_2, SUBJECT_5);
		// blind test to see if this method works:
		assertNoQueryResult("johannesgrenzfurthner");
		// remove a context
		connection.clear((Resource) null);
		connection.commit();
		assertNoQueryResult("sfourponecone");
		assertNoQueryResult("sfourptwocone");
		assertNoQueryResult("sfiveponecone");
		assertQueryResult("sfiveponectwo", PREDICATE_1, SUBJECT_5);
		assertQueryResult("sfiveptwoctwo", PREDICATE_2, SUBJECT_5);
	}

	@Test
	public void testFuzzyQuery() throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		// prepare the query
		// search for the term "one" with 80% fuzzyness
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT \n");
		buffer.append("  Resource, Score \n");
		buffer.append("FROM \n");
		buffer.append("  {Resource} <" + MATCHES + "> {} ");
		buffer.append("    <" + QUERY + "> {\"one~0.8\"}; ");
		buffer.append("    <" + SCORE + "> {Score} ");
		String q = buffer.toString();

		// fire the query
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);
		// check the results
		try (TupleQueryResult result = query.evaluate()) {
			// check the results
			BindingSet bindings = null;

			// the first result is subject 1 and has a score
			int results = 0;
			Set<IRI> expectedSubject = new HashSet<>();
			expectedSubject.add(SUBJECT_1);
			expectedSubject.add(SUBJECT_2);
			expectedSubject.add(SUBJECT_3);
			while (result.hasNext()) {
				results++;
				bindings = result.next();

				// the resource should be among the set of expected subjects, if so,
				// remove it from the set
				assertTrue(expectedSubject.remove((IRI) bindings.getValue("Resource")));

				// there should be a score
				assertNotNull(bindings.getValue("Score"));
			}

			// there should have been 3 results
			assertEquals(3, results);
		}
	}

	/**
	 * Checks if reindexing does not corrupt the new index and if complex query still is evaluated properly.
	 * 
	 * @throws Exception
	 */
	@Test
	public void testReindexing() throws Exception {
		sail.reindex();
		testComplexQueryTwo();
	}

	@Test
	public void testPropertyVar() throws MalformedQueryException, RepositoryException, QueryEvaluationException {
		StringBuilder buffer = new StringBuilder();
		buffer.append("SELECT \n");
		buffer.append("  Resource, Property \n");
		buffer.append("FROM \n");
		buffer.append("  {Resource} <" + MATCHES + "> {} ");
		buffer.append("    <" + QUERY + "> {\"one\"}; ");
		buffer.append("    <" + PROPERTY + "> {Property} ");
		String q = buffer.toString();

		// fire the query
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, q);
		try (TupleQueryResult result = query.evaluate()) {
			int results = 0;
			Map<IRI, IRI> expectedSubject = new HashMap<>();
			expectedSubject.put(SUBJECT_1, PREDICATE_1);
			expectedSubject.put(SUBJECT_2, PREDICATE_1);
			expectedSubject.put(SUBJECT_3, PREDICATE_2);
			while (result.hasNext()) {
				results++;
				BindingSet bindings = result.next();

				// the resource should be among the set of expected subjects, if so,
				// remove it from the set
				Value subject = bindings.getValue("Resource");
				IRI expectedProperty = expectedSubject.remove(subject);
				assertEquals("For subject " + subject, expectedProperty, bindings.getValue("Property"));
			}

			// there should have been 3 results
			assertEquals(3, results);
		}
	}

	@Test
	public void testMultithreadedAdd() throws InterruptedException {
		int numThreads = 3;
		final CountDownLatch startLatch = new CountDownLatch(1);
		final CountDownLatch endLatch = new CountDownLatch(numThreads);
		final Set<Throwable> exceptions = ConcurrentHashMap.newKeySet();
		for (int i = 0; i < numThreads; i++) {
			new Thread(new Runnable() {

				private long iterationCount = 10 + Math.round(Math.random() * 100);

				@Override
				public void run() {
					try (RepositoryConnection con = repository.getConnection()) {
						startLatch.await();
						for (long i = 0; i < iterationCount; i++) {
							con.add(vf.createIRI("ex:" + i), vf.createIRI("ex:prop" + i % 3), vf.createLiteral(i));
						}
					} catch (Throwable e) {
						exceptions.add(e);
						throw new AssertionError(e);
					} finally {
						endLatch.countDown();
					}
				}
			}).start();
		}
		startLatch.countDown();
		endLatch.await();
		for (Throwable e : exceptions) {
			e.printStackTrace(System.err);
		}
		assertEquals("Exceptions occurred during testMultithreadedAdd, see stacktraces above", 0, exceptions.size());
	}

	@Test
	public void testIndexWriterState() throws Exception {
		final String brokenTrig = "{ broken }";
		RepositoryConnection conn = repository.getConnection();
		try (StringReader sr = new StringReader(brokenTrig)) {
			conn.add(sr, "http://example.org/", RDFFormat.TRIG);
		} catch (Exception e) {
			// expected parse exception
			LOG.debug("Parse exception: {}", e.getMessage());
		}
		conn.close();
		conn = repository.getConnection();
		conn.clear(); // make sure this can be executed multiple times
		conn.add(FOAF.PERSON, RDFS.LABEL, SimpleValueFactory.getInstance().createLiteral("abc"));
		conn.close();
	}

	protected void assertQueryResult(String literal, IRI predicate, Resource resultUri) throws Exception {
		// fire a query for all subjects with a given term
		String queryString = "SELECT Resource " + "FROM {Resource} <" + MATCHES + "> {} " + " <" + QUERY + "> {\""
				+ literal + "\"} ";
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, queryString);
		try (TupleQueryResult result = query.evaluate()) {
			// check the result
			assertTrue("query for literal '" + literal + " did not return any results, expected was " + resultUri,
					result.hasNext());
			BindingSet bindings = result.next();
			assertEquals("query for literal '" + literal + " did not return the expected resource", resultUri,
					bindings.getValue("Resource"));
			assertFalse(result.hasNext());
		}
	}

	protected void assertNoQueryResult(String literal) throws Exception {
		// fire a query for all subjects with a given term
		String queryString = "SELECT Resource " + "FROM {Resource} <" + MATCHES + "> {} " + " <" + QUERY + "> {\""
				+ literal + "\"} ";
		TupleQuery query = connection.prepareTupleQuery(QueryLanguage.SERQL, queryString);
		try (TupleQueryResult result = query.evaluate()) {
			// check the result
			assertFalse("query for literal '" + literal + " did return results, which was not expected.",
					result.hasNext());
		}
	}

}
